Investigation of excited states in 18Ne via resonant elastic scattering of 17F+p and its astrophysical implication in the stellar reaction of 14O(α,p)17F

Abstract

Properties of proton resonances in 18Ne have been investigated efficiently by utilizing a technique of proton resonant elastic scattering with a 17F radioactive ion (RI) beam and a thick proton target. A 4.22~MeV/nucleon 17F RI beam was produced via a projectile-fragmentation reaction, and subsequently separated by a Radioactive Ion Beam Line in Lanzhou ( RIBLL). Energy spectra of the recoiled protons were measured by two sets of -E silicon telescope at center-of-mass scattering angles of θc.m.≈1755, θc.m.≈1528, respectively. Several proton resonances in 18Ne were observed, and their resonant parameters have been determined by an R-matrix analysis of the differential cross sections in combination with the previous results. The resonant parameters are related to the reaction-rate calculation of the stellar 14O(α,p)17F reaction, which was thought to be the breakout reaction from the hot CNO cycles into the rp-process in x-ray bursters. Here, Jπ=(3-, 2-) are tentatively assigned to the 6.15-MeV state which was thought the key 1- state previously. In addition, a doublet structure at 7.05 MeV are tentatively identified, and its contribution to the resonant reaction rate of 14O(α,p)17F could be enhanced by at least factors of about 46 in comparison with the previous estimation involving only a singlet. The present calculated resonant rates are much larger than those previous values, and it may imply that this breakout reaction could play a crucial role under x-ray bursters conditions.